/*===============================
* valid_fam_tree -- Validate FAM tree
* fam1, [IN] family to validate
* pmsg: [OUT] error message, if any
* fam0: [IN] family to match - may be NULL
* Should be replaced by valid_fam(RECORD,...) ?
*=============================*/
BOOLEAN
valid_fam_tree (NODE fam1, STRING *pmsg, NODE fam0)
{
NODE refn0, husb0, wife0, chil0, body0;
NODE refn1, husb1, wife1, chil1, body1;
if (!fam1) {
*pmsg = _(qSbademp);
return FALSE;
}
if (nestr("FAM", ntag(fam1))) {
*pmsg = _(qSbadfm0);
return FALSE;
}
if (nsibling(fam1)) {
*pmsg = _(qSbadmul);
return FALSE;
}
refn0 = husb0 = wife0 = chil0 = body0 = NULL;
if (fam0)
split_fam(fam0, &refn0, &husb0, &wife0, &chil0, &body0);
split_fam(fam1, &refn1, &husb1, &wife1, &chil1, &body1);
if (fam0 && !iso_nodes(fam1, fam0, FALSE, TRUE)) {
*pmsg = _(qSbadfam);
goto bad3;
}
if (!iso_nodes(husb1, husb0, FALSE, TRUE)) {
*pmsg = _(qSbadhsb);
goto bad3;
}
if (!iso_nodes(wife1, wife0, FALSE, TRUE)) {
*pmsg = _(qSbadwif);
goto bad3;
}
if (!iso_nodes(chil1, chil0, FALSE, TRUE)) {
*pmsg = _(qSbadchl);
goto bad3;
}
if (fam0)
join_fam(fam0, refn0, husb0, wife0, chil0, body0);
join_fam(fam1, refn1, husb1, wife1, chil1, body1);
return TRUE;
bad3:
if (fam0)
join_fam(fam0, refn0, husb0, wife0, chil0, body0);
join_fam(fam1, refn1, husb1, wife1, chil1, body1);
return FALSE;
}
/*=====================================
* write_fam_to_file -- write node tree into GEDCOM
* (no user interaction)
*===================================*/
static void
write_fam_to_file (NODE fam, CNSTRING file)
{
FILE *fp;
XLAT ttmo = transl_get_predefined_xlat(MINED);
NODE refn, husb, wife, chil, body;
ASSERT(fp = fopen(file, LLWRITETEXT));
prefix_file(fp, ttmo);
split_fam(fam, &refn, &husb, &wife, &chil, &body);
write_nodes(0, fp, ttmo, fam, TRUE, TRUE, TRUE);
write_nodes(1, fp, ttmo, refn, TRUE, TRUE, TRUE);
write_nodes(1, fp, ttmo, husb, TRUE, TRUE, TRUE);
write_nodes(1, fp, ttmo, wife, TRUE, TRUE, TRUE);
write_nodes(1, fp, ttmo, body, TRUE, TRUE, TRUE);
write_nodes(1, fp, ttmo, chil, TRUE, TRUE, TRUE);
join_fam(fam, refn, husb, wife, chil, body);
fclose(fp);
}
/*=====================================
* process_fam -- process indi record
* checking in pass 1, fixing in pass 2
*===================================*/
static void
process_fam (RECORD rec)
{
NODE fam0, fam1;
NODE fref1, husb1, wife1, chil1, rest1;
NODE node1;
INT members = 0;
BOOLEAN altered=FALSE;
BOOLEAN needfix=FALSE;
CNSTRING key = nzkey(rec);
fam0 = nztop(rec);
if (todo.pass==1) {
fam1 = fam0;
} else {
fam1 = copy_node_subtree(fam0);
}
split_fam(fam1, &fref1, &husb1, &wife1, &chil1, &rest1);
/* check refns */
for (node1 = fref1; node1; node1 = nsibling(node1)) {
/* STRING refn=nval(node1); */
/* TO DO: verify that refn is in db */
}
/* check husbs */
for (node1 = husb1; node1; node1 = nsibling(node1)) {
STRING husbkey=rmvat(nval(node1));
NODE husb = qkey_to_indi(husbkey);
members++;
if (!husb) {
if (todo.pass == 1) {
report_error(ERR_BADHUSBREF
, _("Bad HUSB reference (%s) in family %s")
, husbkey, key);
needfix=TRUE;
} else {
if (fix_bad_pointer(key, rec, node1)) {
report_fix(ERR_BADHUSBREF
, _("Fixed Bad HUSB reference (%s) in family %s")
, husbkey, key);
altered=TRUE;
}
}
} else {
/* look for family (key) in husb */
if (!find_xref(key, husb, "FAMS", NULL)) {
report_error(ERR_EXTRAHUSB
, _("Improper HUSB (%s) in family (%s)")
, husbkey, key);
}
}
}
/* check wives */
for (node1 = wife1; node1; node1 = nsibling(node1)) {
STRING wifekey=rmvat(nval(node1));
NODE wife = qkey_to_indi(wifekey);
members++;
if (!wife) {
if (todo.pass == 1) {
report_error(ERR_BADWIFEREF
, _("Bad wife reference (%s) in family %s")
, wifekey, key);
needfix=TRUE;
} else {
if (fix_bad_pointer(key, rec, node1)) {
report_fix(ERR_BADWIFEREF
, _("Fixed Bad wife reference (%s) in family %s")
, printkey(wifekey), key);
altered=TRUE;
}
}
} else {
/* look for family (key) in wife */
if (!find_xref(key, wife, "FAMS", NULL)) {
report_error(ERR_EXTRAWIFE
, _("Improper wife (%s) in family (%s)")
, printkey(wifekey), key);
}
}
}
/* check children */
for (node1 = chil1; node1; node1 = nsibling(node1)) {
STRING chilkey=rmvat(nval(node1));
NODE child = qkey_to_indi(chilkey);
members++;
if (!child) {
if (todo.pass == 1) {
report_error(ERR_BADCHILDREF
, _("Bad child reference (%s) in family %s")
, printkey(chilkey), key);
needfix=TRUE;
} else {
if (fix_bad_pointer(key, rec, node1)) {
report_fix(ERR_BADCHILDREF
, _("Fixed bad child reference (%s) in family %s")
, printkey(chilkey), key);
altered=TRUE;
}
}
} else {
/* look for family (key) in child */
if (!find_xref(key, child, "FAMC", NULL)) {
report_error(ERR_EXTRACHILD
, _("Improper child: Child (%s) without FAMC reference to family (%s)")
, printkey(chilkey), key);
}
}
}
join_fam(fam1, fref1, husb1, wife1, chil1, rest1);
/* check for undersized family */
if (!members) {
report_error(ERR_EMPTYFAM, _("Empty family (%s)"), key);
} else if (members == 1) {
report_error(ERR_SOLOFAM, _("Single person family (%s)"), key);
}
if (altered) {
/* must normalize, as some lineage references may have been
altered to non-lineage tags to fix broken pointers */
normalize_fam(fam1);
/* write to database */
replace_fam(fam0, fam1);
} else if (needfix) {
enqueue_list(tofix, strsave(key));
}
}
